Towards a Decoupling between Economic Expansion and Carbon Dioxide Emissions of the Transport Sector in the Yellow River Basin

Zhang, Shiqing; Li, Yaping; Liu, Zheng; Kou, Xiaofei; Zheng, Wenlong

doi:10.3390/su15054152

Cited by 9 publications

(6 citation statements)

References 44 publications

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“…The rapid development of urbanization has had a significant impact on transportation carbon emissions. Building upon previous research findings 20 , 36 , 37 , 40 , 41 , 44 , this study incorporates the concept of urbanization. The changes in transportation carbon emissions caused by economic growth and lifestyle changes during the urbanization process are referred to as income urbanization effects, while the changes in transportation carbon emissions resulting from population density are termed population urbanization effects.…”

Section: Methodsmentioning

confidence: 99%

Analysis of the decoupling effect and driving factors of carbon emissions from the transportation sector in Guangdong Province

Tang,

Jiang

2023

Sci Rep

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To propel the green transformation of the transportation industry in Guangdong Province. Against the backdrop of the five-year plan, this study employs the Tapio decoupling model and the Logarithmic Mean Divisia Index decomposition method to analyze the decoupling status and driving factors of carbon emissions from transportation and economic growth in Guangdong Province from 2001 to 2020. The results show that:(1) Both the total volume of carbon emissions from transportation and per capita emissions exhibit an overall upward trend, with petroleum-based emissions accounting for an overwhelming 96%, with diesel emissions register the highest proportion and most substantial increase. (2) The decoupling status predominantly manifests as weak decoupling, with intermittent years expansive coupling,, expansive negative decoupling, strong decoupling, and recessive coupling, thus indicating a persistent state of decoupling instability. (3) The study introduces the urbanization effect, wherein the effects of income urbanization, as well as spatial urbanization, predominantly exert positive driving influences. Conversely, the effects of energy intensity, population urbanization, industry scale, and energy structure collectively exert negative driving influences. Notably, the effect of income urbanization emerges as the primary factor propelling the augmentation of carbon emissions, while the energy intensity effect serves as the primary factor curbing such escalation. Finally, pertinent policy recommendations are put forth.

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Section: Methodsmentioning

confidence: 99%

Analysis of the decoupling effect and driving factors of carbon emissions from the transportation sector in Guangdong Province

Tang,

Jiang

2023

Sci Rep

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“…Previous research has often neglected to simultaneously consider the impacts of structural adjustments, technological advancements, and urbanization development. This paper builds upon this foundation by incorporating the concept of urbanization (Zhang et al 2023;Tang et al 2023).…”

Section: Decoupling Factor Decomposition Modelmentioning

confidence: 99%

Decoupling effect and influencing factors of transportation carbon emissions in Hainan Province,China

Tang,

Jiang

2024

Preprint

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Hainan, as the pioneering province in China to declare a comprehensive ban on the sale of petrol-driven automobiles by 2030, is actively propelling the low-carbon transformation of its transportation industry. Through the integration of the Tapio model and the LMDI method, an exhaustive analysis spanning the years 2006 to 2020 was conducted to scrutinize the decoupling dynamics and influencing factors between carbon emissions in Hainan's transportation industry and the concurrent trajectory of its economic development. The research has yielded noteworthy findings: (1) Total and per capita carbon emissions from transportation exhibit an initial phase of rapid ascent followed by a gradual deceleration, with carbon emissions from oil energy sources constituting an overwhelming 99%, where kerosene stands out as the primary contributor with the highest proportional increase; (2) The decoupling index exhibits an "M" curve trajectory, signifying an overarching trend of initial deterioration succeeded by subsequent improvement, reflecting an unstable decoupling status; (3) With the introduction of urbanization effects, positively driving factors include income urbanization effect, spatial urbanization effect, transportation intensity effect, and industrial structure effect. Conversely, negatively driving factors encompass energy intensity effect, population urbanization effect, and energy structure effect. Among these, the paramount factor propelling an increase in carbon emissions is income urbanization effect, while the paramount factor inhibiting carbon emissions is energy intensity effect. Finally, proposing policy recommendations.

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“…As China's economic growth is transforming from an extensive mode to a sustainable and green development one, it is necessary to decouple economic growth from resource utilization so that ecological degradation can be mitigated. Most studies focused on singleresource decoupling, such as via water [26][27][28][29], energy [30,31], carbon emissions [32][33][34], and food [35][36][37]. A few studies have attempted to explore the decoupling states between economic growth and multiple resource utilization.…”

Section: Of 21mentioning

confidence: 99%

Decoupling Economic Growth from Embodied Water–Energy–Food Consumption Based on a Modified MRIO Model: A Case Study of the Yangtze River Delta Region in China

Huang

2023

Sustainability

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Water, energy, and food are indispensable resources for socioeconomic development, and are highly interwoven in urban activities. Clarifying spatial differences in resource consumption is of great significance for coordinated management. However, there is still a lack of a unified assessment for water–energy–food (WEF) nexus flow analysis. This study proposes a comprehensive framework to investigate WEF utilization based on a modified multi-regional input–output (MRIO) analysis. Taking the case of the Yangtze River Delta region, we first inventoried embodied water–energy–food consumption from 2012 to 2017. Then, decoupling analysis and the Logarithmic Mean Divisia Index (LMDI) method were applied to explore decoupling states and identify driving factors. The results show that overall embodied WEF consumption experienced a downward trend from 2012 to 2017, and different provinces varied significantly. Jiangsu had the largest consumption of water and energy, while Anhui contributed a big chunk to food consumption. The manufacturing sector heavily relied on WEF resources and had a great impact on the ecological environment. The decoupling performance indicated a general trend of weak decoupling and strong decoupling in most provinces, with the mining, electricity, and gas supply sectors contributing most to positive decoupling, and the service sectors devoting the most to negative decoupling. As for resource type, water ecological footprint decoupled more than energy and food ecological footprints. Technology level and industrial structure had a major effect on the realization of decoupling, while economic output and population scale were the main restraining factors. Finally, we provide some differentiated policy recommendations for coordinated resource management.

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Towards a Decoupling between Economic Expansion and Carbon Dioxide Emissions of the Transport Sector in the Yellow River Basin

Cited by 9 publications

References 44 publications

Analysis of the decoupling effect and driving factors of carbon emissions from the transportation sector in Guangdong Province

Analysis of the decoupling effect and driving factors of carbon emissions from the transportation sector in Guangdong Province

Decoupling effect and influencing factors of transportation carbon emissions in Hainan Province,China

Decoupling Economic Growth from Embodied Water–Energy–Food Consumption Based on a Modified MRIO Model: A Case Study of the Yangtze River Delta Region in China

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